A computer-implemented method for enhancing an input image that includes modifying the relatively lower frequency aspects of the input image based upon a brightening process, where the brightening process is based upon a brightening selection which is based upon a combination of an under brightening term and a clipping term and a joint saturation boost and brightening. The method modifies the relatively higher frequency aspects of the input image based upon reducing lower amplitude noise and enhancing the noise reduced higher frequency aspects of the input image, and combines the modified relatively lower frequency aspects of the input image and the modified relatively higher frequency aspects of the input image.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A computer-implemented method for enhancing an input image comprising: (a) receiving an input image; (b) modifying the relatively lower frequency aspects of said input image based upon a brightening process, where said brightening process is based upon a brightening selection which is based upon a combination of an under brightening term and a clipping term and a joint saturation boost and brightening; (c) modifying the relatively higher frequency aspects of said input image based upon reducing lower amplitude noise and enhancing the noise reduced higher frequency aspects of said input image; (d) combining said modified relatively lower frequency aspects of said input image and said modified relatively higher frequency aspects of said input image; (e) wherein said brightening selection is based upon an error function of said under said brightening term and said clipping term; (f) wherein said error function is further based upon brightening candidates and code values.
2. A computer-implemented method for enhancing an input image comprising: (a) receiving an input image; (b) modifying the relatively lower frequency aspects of said input image based upon a brightening process, where said brightening process is based upon a brightening selection which is based upon a combination of an under brightening term and a clipping term and a joint saturation boost and brightening; (c) modifying the relatively higher frequency aspects of said input image based upon reducing lower amplitude noise and enhancing the noise reduced higher frequency aspects of said input image; (d) combining said modified relatively lower frequency aspects of said input image and said modified relatively higher frequency aspects of said input image; (e) wherein said joint saturation boost and brightening results in increased saturation of said input image; (f) wherein said joint saturation boost and brightening is based upon a first gain value and a second gain value.
3. The method of claim 2 wherein said first gain value is related to saturation.
4. The method of claim 3 wherein said second gain value is related to a grey level.
5. The method of claim 4 wherein said brightening is based upon a maximum gain value.
6. A method for enhancing an input image suitable to be displayed on a display comprising: (a) receiving an input image; (b) modifying the relatively lower frequency aspects of said input image based upon a brightening process, where said brightening process is based upon a brightening selection which is based upon a combination of an under brightening term and a clipping term and a joint saturation boost and brightening; (c) modifying the relatively higher frequency aspects of said input image based upon reducing lower amplitude noise and enhancing the noise reduced higher frequency aspects of said input image; (d) combining said modified relatively lower frequency aspects of said input image and said modified relatively higher frequency aspects of said input image; (e) wherein said brightening selection is based upon an error function of said under said brightening term and said clipping term; (f) wherein said error function is further based upon brightening candidates and code values.
7. A method for enhancing an input image suitable to be displayed on a display comprising: (a) receiving an input image; (b) modifying the relatively lower frequency aspects of said input image based upon a brightening process, where said brightening process is based upon a brightening selection which is based upon a combination of an under brightening term and a clipping term and a joint saturation boost and brightening; (c) modifying the relatively higher frequency aspects of said input image based upon reducing lower amplitude noise and enhancing the noise reduced higher frequency aspects of said input image; (d) combining said modified relatively lower frequency aspects of said input image and said modified relatively higher frequency aspects of said input image; (e) wherein said joint saturation boost and brightening results in increased saturation of said input image; (f) wherein said joint saturation boost and brightening is based upon a first gain value and a second gain value.
8. The method of claim 7 wherein said first gain value is related to saturation.
9. The method of claim 8 wherein said second gain value is related to a grey level.
10. The method of claim 9 wherein said brightening is based upon a maximum gain value.
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March 30, 2012
October 14, 2014
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